共查询到19条相似文献,搜索用时 612 毫秒
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本文用澜沧—耿马地震前后昆明台和弥渡台的重力固体潮观测资料对震前昆明、弥渡的重力场进行了潮汐变化和非潮汐变化的分析研究。研究表明澜沧—耿马地震前昆明、弥渡的重力场变化有如下特征:1.重力值变化和重力值差分值变化不明显。2.重力潮汐因子有较明显的负异常变化。3.重力潮汐因子变化的异常时间和1976年5月29日龙陵7.3、7.4级地震异常时间半年多接近;异常的最大变幅处于同一量级,但澜沧地震前昆明台的最大变幅4.7%比龙陵地震前的最大变幅3.4%稍大。4.重力潮汐因子变化有较明显的中期异常,短期异常也有一定反映,但临震异常不明显。 相似文献
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本文在考虑全球陆面数据同化系统陆地水储量变化影响后,利用2002年4月—2015年4月GRACE卫星RL05月重力场模型获取了2011年日本MW9.0地震震中及其周边区域的重力场信息;然后给出了日本及其周边2003—2015年的年度累积重力变化和差分重力变化,并且利用经验正态函数方法深入分析了该地震过程中同震重力变化对区域重力场的贡献. 结果显示:日本MW9.0地震前研究区域出现了幅值高达2×10-8 m/s2的异常重力变化,其同震效应的时间和空间特征均出现在第一模态,且同震重力变化和震后区域重力场变化特征显著,这充分表明该地震对区域重力场的影响显著. 相似文献
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利用四川地区2010 ~ 2013 年流动重力观测数据作出的重力场动态变化图像和重力段差时序变化图像,对芦山7. 0 级地震前后的重力场动态演化特征进行了研究,结果表明:震前重力场经历了约3 年的重力增大和约1 年的减小变化,重力变化呈“上升→加速上升→减速上升→加速下降→减速下降”特征; 芦山地震发生在重力场变化由下降转为上升的回调过程中;震后重力场变化以较快的速度恢复到接近震前状况,并出现重力正值变化异常区域;临震前震中区域重力场变化数值较小,构造带活动速度变慢。 相似文献
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利用陕甘川地区2016—2018年5期流动重力观测资料,分析了陕西宁强MS5.3地震前半年和1年尺度的重力场变化特征。同时采用小波多尺度分解方法,对宁强MS5.3地震震中区的布格重力异常进行1~4阶小波分解,并对1~4阶小波细节图像进行分析。研究结果表明:①宁强MS5.3地震重力场呈现“正向变化—正向减弱—负向变化—负向减弱”演化过程,震前重力场呈现四象限分布特征,震中位于鞍部位置,符合走滑型地震特征;②布格重力异常2~3阶小波细节对宁强MS5.3地震孕震特征有较好的反映,对应的场源深度为10~15km,与本次地震震源深度11km有较好的对应关系。 相似文献
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应用重力变化平面图和各点时序变化曲线.结合网区及周边地区震例,对邢台网重力场震前异常特征进行了研究。结果显示.网区重力场存在整体单调上升变化背景;重力场变化同周边地震活动水平明显相关;震前伴有网区重力场变化加速或转折过程,平面图出现大面积高值异常区。 相似文献
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利用宁夏地区2011—2013年期间多期重力观测资料,采用中国地震局推广的LG-ADJ程序对观测资料进行平差处理,给出地震前后3年的区域重力场变化和点值变化图像。结合构造活动分析,对2012永宁4.6级地震前后宁夏地区重力异常变化进行研究。认为:2012年永宁地震前,测区重力场出现较好的中期前兆性变化图像,临震前短期异常突增,重力场在空间和量值上均出现大幅的上升变化,重力点值震前趋势下降-转折上升-加速上升-发震的变化,是非常值得关注的前兆异常。 相似文献
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利用西南天山地区2007至2016年共20期流动重力观测资料,分析该地区一年、两年尺度和累积重力变化特征,探讨区域构造活动、地震孕育发生与重力场变化特征的关系。结果表明:西南天山地区迈丹断裂带、柯坪塔格断裂带等大型断裂带影响该区域的重力场分布,使该地区较多出现NEE向的重力梯度分布特征。塔里木盆地和西南天山重力变化有明显的差异性,2个不同的构造块体在重力分布上呈现相对反向变化,塔里木盆地和西南天山地区的重力变化界线不在塔里木盆地边缘的山前地带,而较多出现在柯坪推覆体中北缘地带。西南天山地区的地震大部分发生在重力正值变化区域的零线附近,震中及附近地区重力异常分布与构造特征有较好的一致性。在活动断裂带附近同时出现重力变化零线以及与断裂走向一致的重力变化高梯度带,可作为中短期前兆异常。 相似文献
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邢台5.4级地震前的流动重力和地磁异常初步研究 总被引:1,自引:0,他引:1
根据测值空间变化等值线和时序变化曲线,分析了2002年邢台5.4级地震前流动重力和流动地磁异常的动态演化。两种异常震前表现出如下特征:①流动重力、流动地磁观测资料均有较为明显的前兆异常反应;②地震发生在重力变化的“0”等值线附近;③流动地磁部分点位测值呈现趋势性异常,震前全部点位观测值整体上升,形成完整的高值异常区。 相似文献
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利用北天山中段最新的流动重力观测数据,通过整理计算平差,绘制该地区半年和一年尺度的重力场变化图像;选取横跨北天山中段乌鲁木齐、独山子两条测线,并分别绘制其重力剖面变化图;结合北天山中段地区动力构造环境,剖析该地区重力变化特征及其与地震孕育之间的关系。分析表明:北天山中段地区重力异常变化值不大,重力变化等值线图和剖面变化图均能较好地反映重力场随时空变化特征;北天山中段动态重力变化特征基本反映了该地区动力构造运动的外部环境;研究区域内的重力场空间格局分布特征较清晰,其重力变化具有明显的分区特征,山体和盆地之间的重力变化具有显著差异,山体与盆地边缘正负重力变化交替出现,且变化相对较平稳。 相似文献
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The role of the gravitational potential of the lithosphere in the formation of a global stress field
The global stress field appearing in the Earth’s lithosphere under the action of forces caused by the difference of gravitational
potential is calculated. An original algorithm is proposed and the operational Earth Stresses program code is developed. The
data on the topography, thickness, and density of the Earth’s crust and the upper mantle, as well as the gravitational anomalies
and thermal conditions in the lithosphere were taken into account in the calculations. A comparison of the calculation results
and the observed data makes it possible to conclude that the action of the forces of the difference of the gravitational potential
alone is sufficient to explain the features of the first order of the stress field in the Earth’s lithosphere. 相似文献
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THE INTERPRETATION OF GRAVITATIONAL AND MAGNETIC DATA FOR THE VOLCANIC ROCKS DISTRIBUTION IN KE-BAI FAULT ZONE,JUNGGAR BASIN 
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下载免费PDF全文 This paper firstly discusses the feasibility of delineating the volcanic rocks distribution by gravitational and magnetic methods on the basis of the statistical results of the magnetic susceptibility and density of the different lithologies in the study area. After the separation of gravitational and magnetic fields by bandpass filter, we determined the residual gravitational and magnetic anomalies caused by volcanic rocks. The results of potential field separation show that the residual anomalies are in beaded NE-directed distribution. In the meantime, the boundary enhancement techniques such as horizontal total gradient and vertical derivative are employed to delineate the distribution of the faults, as the result, fifteen faults including four NE-striking main faults which appear as an arc protruding to the southeast and other secondary faults are distinguished. Furthermore, two fault systems with deep and superficial attribution are revealed from the inversed section of the telluric electromagnetic sounding, and their properties, characteristics and roles in the volcanic activity are fully discussed by combining with the tectonic background. Based on the comprehensive analysis of the correlation between the distribution characteristics of the residual gravitational and magnetic anomalies and the location of the faults, three volcanic activity zones are reasonably delineated. Finally, we carry out the inversion of apparent density by taking advantage of the residual gravitational anomalies and acquire the apparent density anomalies of the top part of Paleozoic. Integrated with the apparent density anomalies, the lithologies exposed from the boreholes, the observed density data of different rocks and the residual gravitational-magnetic anomalies, we elaborately delineate the lithologies of the top of Paleozoic and further define the distribution range and the lithology combination of Kekesayi group of Middle Ordovician, Tailegula group of Lower Carboniferous and Jiamuhe group of Lower Permian. 相似文献
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本文基于Vening Meinesz区域均衡模型,通过试验不同参数计算Vening Meinesz均衡补偿深度,将其与CRUST1.0模型给出的莫霍面深度进行拟合,得到适应于天山及邻区的平均补偿深度、"地区性指标"以及区域补偿半径.结合地球重力场模型EIGEN-6C4与地形数据,利用球冠体积分方法进行地形效应、沉积层效应计算和均衡校正,得到了研究区的Vening Meinesz均衡重力异常.结果显示天山及邻区的均衡重力异常幅值在-110~120 mGal之间,表明了天山及周边盆地岩石圈所处于的均衡状态,同时揭示了研究区的壳幔密度分布特征.天山、塔里木盆地、准噶尔盆地等块体的地壳垂向形变可能部分地由均衡调整引起,且均衡调整趋势与地面形变测量结果相契合.通过对均衡重力异常成因的解释,从地壳均衡角度分析了该地区复杂的构造背景及其新生代以来的演化历程. 相似文献
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Mohammad A. Sharifi Mohsen Romeshkani Robert Tenzer 《Studia Geophysica et Geodaetica》2017,61(3):453-468
A regional recovery of the Earth’s gravity field from satellite observables has become particularly important in various geoscience studies in order to better localize stochastic properties of observed data, while allowing the inversion of a large amount of data, collected with a high spatial resolution only over the area of interest. One way of doing this is to use observables, which have a more localized support. As acquired in recent studies related to a regional inversion of the Gravity field and steady-state Ocean Circulation Explorer (GOCE) data, the satellite gravity-gradient observables have a more localized support than the gravity observations. Following this principle, we compare here the performance of the second- and third-order derivatives of the gravitational potential in context of a regional gravity modeling, namely estimating the gravity anomalies. A functional relation between these two types of observables and the gravity anomalies is formulated by means of the extended Stokes’ integral formula (or more explicitly its second- and third-order derivatives) while the inverse solution is carried out by applying a least-squares technique and the ill-posed inverse problem is stabilized by applying Tikhonov’s regularization. Our results reveal that the third-order radial derivatives of the gravitational potential are the most suitable among investigated input data types for a regional gravity recovery, because these observables preserve more information on a higher-frequency part of the gravitational spectrum compared to the vertical gravitational gradients. We also demonstrate that the higher-order horizontal derivatives of the gravitational potential do not necessary improve the results. We explain this by the fact that most of the gravity signal is comprised in its radial component, while the horizontal components are considerably less sensitive to spatial variations of the gravity field. 相似文献
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On the accuracy of the bathymetry-generated gravitational field quantities for a depth-dependent seawater density distribution 总被引:1,自引:0,他引:1
In geophysical studies investigating the lithosphere structure, the gravitational field generated by the ocean density contrast
(i.e., bathymetry-generated gravitational field) represents a significant amount of the signal to be modelled and subsequently
removed from the Earth’s gravity field. The ocean density contrast is typically calculated as the difference between the mean
density values of the Earth’s crust and seawater. The approximation of the actual seawater density distribution by its mean
value yields relative errors up to about 2% in computed quantities of the gravitational field. To reduce these errors, a more
realistic model of the seawater density distribution is utilized based on the analysis of existing oceanographic data of salinity,
temperature, and pressure (depth). We study the accuracy of the bathymetry-generated gravitational field quantities formulated
for a depth-dependent model of the seawater density distribution. This density distribution approximates the seawater density
variations due to an increasing pressure with depth, whereas smaller lateral density variations caused by salinity, temperature,
and other oceanographic factors are not taken into consideration. The error analysis reveals that the approximation of the
seawater density by the depth-dependent density model reduces the maximum errors to less than 0.6%. The corresponding depth-averaged
errors are below 0.1%. The depth-dependent seawater density model is further facilitated in expressions for computing the
bathymetry-generated gravitational field quantities by means of the spherical bathymetric (ocean bottom depth) functions.
The numerical realization reveals large differences in the results obtained with and without consideration of the depth-dependent
seawater density distribution. The maxima of absolute differences reach 201 m2/s2 and 16.5 mGal in computed values of the potential and attraction, respectively. The application of the depth-dependent seawater
density model thus significantly improves the accuracy in the forward modelling of the bathymetric gravitational field quantities. 相似文献
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A new technique for delineation of subsurface features using gravity eigenimage is proposed to separate the gravitational anomalies from its background. The singular value decomposition and multifractal method has been combined and tested on several synthetic gravity anomalies and also applied to field gravity dataset of Vindhyan basin in central India which is a promising area for petroleum exploration. The eigenimage of gravity data helps to understand the relationship between the geological structure and source of anomaly. Fault structure is the major structure and could be the principal contributor that differentiates the regional and local geo-anomalies in the studied region. 相似文献